Lure fishing assembly with weighted wireform

ABSTRACT

A fishing lure assembly is disclosed which comprises a blade free to oscillate, yaw and produce a trailing wake as the fishing lure assembly is displaced through water. A weight is affixed to the fishing lure assembly, but affixed to an associated wireform where it is inferiorly disposed relative to the blade such that the blade is free to oscillate and have side-to-side action, substantially unaffected by mass and inertia of the weight. The fishing lure may be variably constructed to include one or more hooks and artificial or natural soft bait and hard bait bodies which are disposed to follow behind the trailing wake of the blade. A compound lure is disclosed wherein the weight is replaced by a jig hook.

CONTINUITY

This application is a Continuation of U.S. patent application Ser. No.13/694,028, now ALLOWED, which is a Continuation-in-Part of U.S. patentapplication Ser. No. 13/200,900, titled INTERCHANGEABLE BLADE AND LUREFISHING ASSEMBLY and filed Oct. 4, 2011 which is Continuation-in-Part ofU.S. patent application Ser. No. 12/387,024, titled BLADED FISHING LUREand filed Apr. 27, 2009, which is a Continuation-in-Part of U.S. PatentApplication U.S. patent application Ser. No. 11/656,099, titled FISHINGLURE ASSEMBLY and filed Jan. 22, 2007 by David L. Thorne, which are madepart hereof by reference.

FIELD OF INVENTION

This invention relates to blades and frame assemblies from which fishinglures or other fishing gear may be constructed, and particularlywireframe assemblies which are affixed to an oscillating blade andfishhook and further affixed to a weight, the wireform comprising a loopfor attaching a fishing line and a distending shaft for attaching theweight.

BACKGROUND AND RELATED ART

A snag resistant fishing lure is disclosed in U.S. Pat. No. 7,726,062B2, issued Jun. 1, 2010 to James Ronald Davis (Davis). Davis discloses ajig with an attached blade. The jig has a weight molded about the shankof a hook with an eyelet disposed to maintain the sharpened point of ahook held upright by the relative dispositions of the eyelet, weight andorientation of the point. The blade is taught to be affixed to theeyelet and be limited in oscillation by either collision of the bladewith the eyelet or with the weight to which it is directly affixed.Further, the blade is taught to comprise three holes, one of which isused to securely affix the blade to the eyelet. The other two holes aretaught to be used in cooperation with a clip affixed to a fishing linefor the purpose of releasably affixing the fishing line of a fishinglure unit which comprises both blade and weighted fishing lure.

In modern fishing art, two primary facets of a fishing lure include lureaction and ease and efficiency of casting. Oft times these two facetsare in opposition in bladed lures. Action of a bladed lure is oftendependent upon blade resistance (especially for an oscillating blade) asa lure is displaced through water. Such resistance is counter toefficiency in casting, especially when long distance casts are desired.

DEFINITIONS

For purposes of this disclosure, the following definitions apply:

-   aft, adv, near, toward, or in the rear of a lure-   blade, n, a broad flattened part which is affixed to a portion of a    fishing lure and which oscillates as the lure is propelled in water    to provide a wake following therefrom; such a blade may be rigid or    flexible, if flexible such a blade requires a supporting mast to    withstand pressure from being displaced through water-   centrally, adv, near, toward the center of gravity, syn: medically-   distal, adj, (see also proximal) indicates the segment of a device    normally away from a line attachment of a lure-   fishhook, n, a device, usually made of rigid metal wire, comprising    a curved section which has a sharpened point on one end for catching    a fish and a shank which comprises a substantially straight portion    on an opposite end. Generally, the shank is ultimately affixed with    an eyelet or other attachment providing for connecting line and    other accouterments the fishhook fishhook assembly, n, a combination    of a fishhook and other optional attributes associated with the    fishhook for attaching the fishhook to a frame or wireform and for    adding attractive components such as an artificial or natural bait-   fore, adv, in, toward or adjacent to the front (i.e. forward)-   inferior, adj, situated lower down or closer to the center of the    earth than a referenced site-   jig, n, a fishhook which has a weight affixed about an associated    shank of the fishhook-   proximal, adj, indicates the segment of a device normally closely    disposed relative to a line attachment of a lure-   shank, n, a wire form which is a proximal portion of a fishhook the    shank usually having a substantially straight portion which is    associated with a curved portion of a fishhook and with a connecting    link by which the fishhook is affixed to other fishing gear-   substantially, adv, in a manner relating to the most or main part or    characteristic of something-   superior, adj, situated higher up or away from the center of the    earth relative to a referenced site

BRIEF SUMMARY AND OBJECTS OF THE INVENTION

In brief summary, this novel invention provides a basis for a bladedfishing lure comprising a wireform affixed to a fishing line, a blade, afishhook assembly and a weight affixed in a particular geometry toprovide for high frequency side-to-side action of the fishhook assemblydisposed in the wake of the blade as it oscillates when displacedthrough water. The wireform, blade and hook assembly are stabilized bythe weight which is disposed to provide stabilization withoutsubstantially affecting frequency and magnitude of displacement ofoscillation of the blade and associated fishhook assembly. Further, whenin a casting mode, the weight becomes the driving inertia for blade,associated fishhook assembly and wireform and, as such, rotates thewireform and blade to a state of reduced resistance relative to thatstate which produces an oscillating blade when being displaced by afishing line through water.

Primary to the invention is the wireform including a forwardly disposedeyelet or loop for attachment of a fishing line, an aft loop to which afishhook assembly or lure part is pivotally affixed, the aft loop beingformed by a plurality of bends in the wireform, the bends furtherforming a releasable clasp at the tag end. The clasp is sufficientlysmall to permit threading through holes in an associated blade andfishhood assembly eyelet. Once so threaded, the clasp is affixed tosecure blade and fishhook assembly. Further, the wireform has a legwhich distends away from the clasp a predetermined distance whereat aweight is affixed to stabilize the lure when drawn through water. Thus,the weight does not substantially affect oscillatory action of the bladeas affixed by the clasp. The blade, not being required to bear mass ofthe weight may be made from either metal or plastic. So constructed,when the weight and lure are cast, the weight rotates the wireform suchthat the blade is disposed to “fly” with reduced resistance without atendency to spin which would otherwise reduce momentum and castingdistance.

Therefore, it is a primary object to provide a fishing lure comprising awireform produced from a single wire having a series of bends forming anaft end loop and a tag end clasp which can be threaded through holes ina blade and eyelet of a fishhook assembly to pivotally secure both bladeand assembly by the clasp, and, further forward, having an eye loop forfishing line attachment and an inferiorly distending shaft whereby theweight is affixed to the wireform.

It is an important object to provide a blade member having only twomedially disposed holes by which the blade is securely, but pivotallyaffixed the wireform such that the blade is permitted to oscillate asthe lure is displaced through water.

It is another important object to provide a fishhook assembly having ashaft and forwardly disposed eyelet whereby the fishhook assembly ispivotally affixed to the aft loop and disposed in the wake of the bladeas the lure is displaced in water.

It is a primary object to provide a weight affixed to the inferior endof the distending shaft to provide an inertial mass which stabilizes thelure in water without substantially affecting blade oscillation

It is an important object that the distending shaft be substantiallydisplaced away from the the clasp so that, when an associated lure iscast, wireform and blade rotate to be disposed in a state of lowresistance during flight.

It is another object to provide artificial bait affixed to the hookassembly such that as the fishhook assembly oscillates in the wake ofthe blade lifelike sinusoidal side-to-side action is effected upon theartificial bait.

It is another object to provide natural bait affixed to the hookassembly such that as the hook assembly oscillates in the wake of theblade lifelike sinusoidal side-to-side action is effected upon thenatural bait.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side elevation of a magnified wireform made according to theinvention.

FIG. 2 is a side elevation of the wireform seen in FIG. 1 with a weightaffixed to a distending member of the wireform.

FIG. 3 is a side elevation of the wireform and weight seen in FIG. 2with a fishhook assembly pivotally affixed to an aft loop of thewireform forming a clasp, the assembly comprising a fishhook and anelongated member by which the fishhook is displaced away from the clasp.

FIG. 4 is a forward perspective of the wireform and weight seen in FIG.3 with a fishhook in place of the fishhook assembly and a blade affixedthereto.

FIG. 5 is an aft perspective of the wireform, weight, fishhook and bladeseen in FIG. 4.

FIG. 6 is a frontal elevation of the blade and weight seen in FIG. 5showing side-to-side rotating divergence of a portion of the lure due toblade oscillation, with one state of divergence indicated by dashedlines.

FIG. 7 is a side elevation of the wireform, weight, fishhook assemblyand blade seen in FIG. 3 with an elongated bait affixed to the fishhookassembly.

FIG. 8 is a top perspective of the fishing lure combination comprising afishhook pivotally affixed to the wireform as seen in FIGS. 4 and 5 andwherein side-to-side divergence as seen in FIG. 6 is effected upon anattached elongated bait to produce sinusoidal action of the bait.

FIG. 9 is a side elevation of a lure combination which is similar to thecombination seen in FIG. 7 except for a rotated fishhook and bait withgrooves for facile attachment to the fishhook assembly.

FIG. 10 is a perspective of the lure combination seen in FIG. 9.

FIG. 11 is a bottom elevation of the lure combination seen in FIG. 10.

FIG. 12 is a side elevation of a lure combination in which a treble hookis affixed as part of a fishhook assembly.

FIG. 13 is a side elevation of another lure combination, similar to thecombination seen in FIG. 12, but with a single hook inferiorly disposedand a bait affixed thereto.

FIG. 14 is a side elevation of the lure seen in FIG. 10 in flight afterhaving been cast.

FIG. 15 is a side elevation of a lure assembly with a jig type lureaffixed to a wireform in place of the weight seen in FIG. 2.

FIG. 16 is a side elevation of a lure assembly similar to the lureassembly of FIG. 15 with a soft bait cover disposed over the jig typelure.

FIG. 17 is a side elevation of compound lure assembly similar to thelure assembly seen in FIG. 16 with the jig and soft bait cover affixedto the distending portion of a wireform while a fishhook assembly and anartificial bait is affixed to the wireform aft of the blade.

DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS

Reference is now made to the embodiments illustrated in FIGS. 1-17wherein like numerals are used to designate like parts throughout.Primes of numbers, otherwise used without primes for designating labeledparts which are similar in form and/or function, but not identical, tothose parts designated by the numbers without primes.

Reference is now made to FIG. 1 wherein a wireform 10 made according tothe present invention is seen. Of course, a wireform may be embodied inother specific forms without departing from the spirit or essentialcharacteristics thereof. As seen in FIG. 1, a first end 12 of wireform10 is turned at an elbow 14 to provide an anchor 16 for a weight. Asnoted hereafter, anchor 16 may be in the form of an eyelet for attachinga weighted lure thereto. From elbow 14 an arm 18 extends upward to acircular ring 20 formed to permit a fishing line to be affixed thereat.Distending aftward from ring 20 a first leg 22 extends to a bend 24which leads to a second leg 26 Second leg 26 extends forward apredetermined distance to a second elbow 28 where a clasp 30 is formedat the other (tag) end 32. As such, wireform 10 may be opened at clasp30 to thread an associated fishhook, a blade and/or other lureattachments used to construct a lure for fishing.

As seen in FIG. 2, a weight 40 is affixed to arm 18 of wireform 10 aboutanchor 16 (not seen in FIG. 2). In this manner, when wireform 10 isaffixed to a completely constructed lure, mass of weight acts tostabilize an associated lure in water.

Further construction of an associated lure 50 is seen in FIG. 3 whereina blade 60 and a fishhook assembly 70 are affixed to wireform 10. Notethat mass of weight 40 does not bear directly upon blade 60. In the caseof lure 50 fishhook assembly 70 comprises an elongated extension 72affixed to a fishhook 80. Complements of blade 60 are disclosed indetail hereafter.

Reference is now made to FIGS. 4 and 5 whereat a blade 60 and fishhook80′ are seen affixed to wireform 10. As seen in FIG. 4, blade 60 has aplanar forward face 81 which comprises two medially disposed holes 82and 84. Note that leg 22 is disposed through hole 84 and leg 26 isdisposed through hole 82. Note also, in FIG. 5 that fishhook 80′ has aneyelet 88 which is disposed about bend 24 of wireform 10. In suchconstruction, eyelet 88 should be threaded to bend 24 after leg 22 isdisposed through hole 84, and before leg 26 is disposed through hole 82.

As seen in FIG. 6, with blade 60 so affixed to wireform 10 (not shown inFIG. 6 for clarity of presentation) and therefor further affixed toweight 40, oscillation of blade 60 results in side-to-side motion whichis angulated about weight 40. As weight 40 comprises the majority of themass of an associated lure, angular motion may be induced into weight 40without a significant side-to-side disturbance of weight 40.Side-to-side motion of blade 60 is seen to be an arcing motion asdepicted by arrow 90. Note, use of dashed lines for depicting a second,displaced position of blade 60.

Side-to-side motion, as depicted in FIG. 6 is critical to creating alife-like action in a bait 100 affixed to a hook assembly 70, seen inFIG. 7. Note fishing line 110 affixed to ring 20 of wireform 10 which isgenerally used to displace (pull) wireform 10 and associated lureattachments through water. Side-to-side motion (oscillation) of blade 60(see FIG. 6) as wireform 10 and bait 100 are displaced through waterresults in a sinusoidal action of bait 100 as seen in FIG. 8. Suchaction is a lifelike swimming action which is of significantly greaterfrequency than an action of a lure which is impeded by a weight affixedto a fishhook assembly. Such is the case because weight 40 is displacedfrom a wake created by blade 60 and effective motion of weight 40 due toside-to-side motion of blade 60 results in only simple rotation ofweight 40. This is in opposition to any resulting side-to-side action ofa weight which, because mass of the weight would result in smallerdisplacement, and likely lower oscillating frequency, than displacementand frequence of action of a blade free of such weight. The sinusoidalaction of bait 100 which results from side-to-side displacement of blade60 as seen in FIG. 8 is exemplary and frequency and amplitude ofoscillation varies as a function of lure displacement velocity. Thedashed line figure in FIG. 8 depicts an offset position similar to theoffset position seen in FIG. 6, as blade 60 exhibits side-to-side motionwhen displaced through water.

Although conventional commercial baits (such as bait 100 seen in FIGS. 7and 8) may be used, for ease of exchanging and mounting fresh baitsabout hook assembly 70, baits may be provided with grooves and slits foreasier handling. As seen in FIGS. 9-11, a bait may be provided having aseries of grooves 112, 114, 116 and 118. Such grooves are examples ofbait body molded features which provide for facile attachment to afishhook assembly 70.

Examples of other forms of fishhook assemblies are seen in FIGS. 12 and13. A treble hook 120 is affixed to an elongated extension 72 to form afishhook assembly 70′ in FIG. 12. A single inferiorly facing fishhook130 affixed to an elongated extension 72 for easy threading of anelongated bait 100′ is seen in FIG. 13.

As mentioned supra, lure action, generally attributed to side-to-sidemotion of blade 60, is but one of two major considerations in design ofa fishing lure according to the present invention. The other majorconsideration is facility of casting. When fishing with a bladed fishinglure, it is important that the blade be disposed to oppose movement whenbeing displaced through water. However, when cast, it is important thatthe blade “fly” with reduced resistance rather than impede or opposelure flight. Reference is now made to FIG. 14 wherein a lure 50 isdepicted in flight after being cast (in direction of arrow 132). Notethat fishing line 110 trails weight 40, as the heavy mass and velocityof weight 40 provide the primary thrust for lure 50 and line 110. Alsonote that, when with weight 40 so aligned against line 110, wireform 10is rotated relative to wireform 10 disposition when displaced throughwater. This rotation orients the forward facing plane 81 of blade 60 tobe more horizontal and in line of flight than when displaced throughwater, and, therefore, more flight friendly (i.e. so oriented blade 60exhibits lower flight resistance when cast than if oriented to resistbeing thrust through a fluid).

Reference is now made to FIG. 15, wherein a wireform 10′, formed likewireform 10 except for an eyelet 200 formed at the inferior end 202 ofan arm 18′. Note that a jig hook 40′ may then be used instead of weight40. Further an artificial bait 210 may be employed with jig hook 40′ asseen in FIG. 16. A compound lure 220 may then be constructed as seen inFIG. 17. Lure 220 has a rapidly oscillating lure component formed byblade 60, fishhook assembly 70 and bait 100 with weighted jig hook 40′and bait 210 inferiorly disposed thereto.

The present embodiment should be considered in all respects asillustrative and not restrictive, the scope of the invention beingindicated by the appended claims rather than by the foregoingdescription, and all changes which come within the meaning and range ofequivalency of the claims are therefore intended to be embraced therein.

What is claimed and desired to be secured by Letters Patent is:
 1. Afishing lure comprising: a wireform comprising a plurality of bends anda tag end which form a releasable clasp having two associated legsforward from an aft loop, said wireform further comprising a forwardloop whereat a fishing line is affixed and an inferiorly distendingshaft, when drawn through water, forwardly disposed relative to saidclasp an associated blade member; the blade member comprising only twomedially disposed holes through which the legs of said wireform areindividually disposed and by which side-to-side action is imposed uponthe wireform when the lure is displaced through water; a weight affixedto the inferior end of the distending shaft wherein said weight is apart of a jig comprising a fish hook affixed to said weight such thatthe weight provides inertial mass for stabilizing said lure in water,but does not substantially affect side-to-side blade oscillation andresulting action of said fishhook assembly.